JP6185161B2 - Control method of air-conditioning air guide plate - Google Patents

Description

The present invention relates to a method for controlling an air conditioner, particularly an air conditioner air guide plate.

As shown in FIG. 1, an existing air duct type air conditioning indoor unit 100 includes an indoor unit main body 110 and an air outlet part 120 installed at an indoor unit main body air outlet part, and further includes an air outlet part 120. Includes an air blowing frame 121, a wind guide plate 122 used as a guide in the air blowing direction of air conditioning, and a wind guide plate driving device (not shown in the figure) used for driving and rotating the wind guide plate. The existing air guide plate control method determines the air guide angle of the air guide plate based on the air flow level and temperature input by the user when the air conditioner is operating, and then directs it to the air guide plate drive device. Then, a control signal is transmitted, and the air guide plate is rotated so that the air guide plate driving device has a required air guide angle. In such a control method, if the user does not adjust the air guide angle of the air guide plate during the air conditioning operation, the air guide plate always maintains a predetermined angle and is automatically adjusted according to the environment. Therefore, there is a problem that this is inferior in comfort.

In contrast to the current state of the existing technology described above, the present invention automatically controls the air guide angle of the air guide plate according to the user's needs, and provides a control method for the air conditioning wind guide plate that can improve the comfort of air conditioning. The purpose is to solve technical problems.

The control method of the air conditioning wind guide plate provided by the present invention is as follows:
The air-conditioning air guide plate is installed at the air-conditioning air outlet to adjust the direction in which the air is discharged.
While operating in the cooling mode, determine whether to input an air swing operation command,
When the air swing operation command is not input, the set air flow level, the set temperature T1, and the indoor environment temperature T2 are obtained.
Based on the set air flow level, the set temperature T1, and the indoor environment temperature T2, the user's cooling needs are determined,
Controlling the air guide angle of the air conditioning air guide plate based on the cooling needs of the user.

In one embodiment, determining a user's cooling needs is:
Determining whether the set air flow level is an air flow level equal to or higher than the medium air flow level;
A step of determining whether or not T1 is equal to or greater than T2 + t, a step in which 1 ° C. ≦ t ≦ 3 ° C., a set air flow level that exceeds the medium air flow level, and T1 is T2 + t If the above is true, it is determined that the user's cooling needs are large, and otherwise, the user's cooling needs are small.

In one embodiment, the indoor fan of the air conditioning has an ultra-strong airflow level, a high airflow level, a medium airflow level, and a low airflow level,
Determining the cooling needs of users
a, a step of determining whether or not the set air flow level is a super strong air flow level; and b, if the set air flow level is a super strong air flow level, whether T1 is equal to or greater than T2 + t. If so, it is determined that the user's cooling needs are large, otherwise it is determined that the user's cooling needs are small, and if the set air flow level is not the super strong air flow level, step c C, a step of determining whether or not the set air flow rate level is a high air flow rate level;
d. If the set air flow level is a high air flow level, it is determined whether T1 is equal to or higher than T2 + t. If so, it is determined that the user's cooling needs are large. Determining that the cooling needs are small, and determining that the cooling needs of the user are small if the set airflow level is not the high airflow level.

In one embodiment, the control of the air guide angle of the air conditioning air guide plate based on the cooling needs of the user is as follows:
When it is determined that the set air flow level is an ultra-strong air flow level and T1 is T2 + t or more and the user's cooling needs are great, the air guide angle of the air conditioning air guide plate is a0. Step to
When it is determined that the set air flow rate level is the ultra-strong air flow rate level and T1 is less than T2 + t and the user's cooling needs are small, the air guide angle of the air conditioning air guide plate is al. Step to
When it is determined that the set air flow level is a high air flow level and T1 is equal to or greater than T2 + t and the user's cooling needs are great, the air guide angle of the air conditioning air guide plate is set to a2. And steps to
When it is determined that the set air flow level is a high air flow level and Tl is less than T2 + t and the user's cooling needs are small, the air guide angle of the air conditioning air guide plate is a3. And steps to
When it is determined that the set airflow level is not the super-strong airflow level and the high airflow level, and the user's cooling needs are small, the air guide angle of the air conditioning air guide plate is set to a4; Including,
a0 = a2>al>a3> a4. .

In one embodiment, a0 = a2 = 90 °.

In one embodiment, 20 ° ≦ al <90 °.

In one embodiment, 25 ° ≦ a3 <90 °.

In one embodiment, 30 ° ≦ a4 <90 °.

The air-conditioning air guide plate expands and contracts along the direction of the air outlet,
The control method further includes:
Detecting a wind guide angle of the air conditioning wind guide plate;
Comparing the detected wind guide angle a with the set wind guide angle a ′;
If a ≧ a ′, the step of extending outward from the initial position of the air-conditioning air guide plate to be X1,
If a <a ′, the stroke of extending outward from the initial position of the air conditioning wind guide plate is set to X2, and
X1 <X2. .

In one embodiment, 40 ° ≦ a ′ ≦ 50 °.

In one embodiment, 0 mm ≦ Xl ≦ 20 mm.

In one embodiment, 20 mm <X2 ≦ 40 mm.

In one embodiment, the air conditioning is an air duct type air conditioning, and the air blowing port faces downward.
Compared with the existing technology, the control method of the air-conditioning air guide plate provided by the present invention more accurately determines the user's needs based on the three conditions of the set air flow level, the set temperature and the indoor environment temperature. In addition, the air blowing direction is controlled based on the user's needs to realize more human-oriented and more comfortable ventilation control.

In addition, the control method of the present invention further controls the extension stroke of the air guide plate based on the air guide angle, smoothes the air blowing, and prevents the problem of adhesion of the cold airflow to the ceiling plate, cooling of the ceiling, and condensation. To do.

FIG. 1 is a diagram showing the structure of an air conditioning indoor unit in the existing technology.
FIG. 2 is a diagram showing the structure of an air conditioning indoor unit in one embodiment of the present invention.
3 and 4 are flowcharts of the control method of the air-conditioning air guide plate in one of the embodiments of the present invention, and FIG. 3 is a flowchart regarding control of the air guide plate air guide angle.
FIG. 4 is a flowchart regarding control of the air guide plate extension stroke.

Hereinafter, the present invention will be described in detail with reference to the drawings and in connection with embodiments. In addition, the features in the following embodiments and the embodiments can be combined as long as the contents do not conflict with each other.

FIG. 2 is a diagram showing the structure of an air conditioning indoor unit in one of the embodiments of the present invention. The air conditioning in this embodiment is an air duct type air conditioning, and the indoor unit 200 includes an indoor unit main body 210 and An air outlet part 220 installed at an air outlet part of the indoor unit body 210, and an indoor fan 211 is installed in the indoor unit body 210. The indoor fan 211 in this embodiment Four levels of an air volume level, a high air volume level, a medium air volume level, and a low air volume level are provided, and thereby more accurate control of the rotational speed is realized.

The air outlet part 220 includes an air outlet frame outer frame 221, an air outlet frame inner frame 222 installed in the air outlet frame outer frame 221, several air guide plates 223 installed on the air outlet frame inner frame 222, And a first driving device (not shown in the drawing) used for driving the air guide plate 223 and rotating around the shaft, the first driving device is constituted by a stepping motor and a gear driving mechanism. Can do.

In the figure, the depression angle formed between the panel surface of the air blowing frame outer frame 221 and the wind guide plate 223 wind receiving surface is the wind guide angle α.

FIG. 3 is a flowchart of the method for controlling the air-conditioning air guide plate 223 of the present invention, and includes the following steps.
Step S101: It is determined whether or not an air swing operation command is input during operation of the cooling mode.
Step S102: When the air swing operation command is not input, the control device obtains the air flow level set by the user, the temperature T1 set by the user, and the indoor environment temperature T2 from the memory.

The control device determines the level of the user's cooling needs based on the set air flow level, the set temperature T1, and the indoor environment temperature Τ2, and determines the size of the air guide plate 223 based on the size of the user's cooling needs. The air guide angle α is controlled, and specific steps are as follows.
Step S103: The control device determines whether or not the set airflow level is a super-powerful airflow level.
Step S104: When the set air flow rate level is the super strong air flow rate level, the control device determines whether T1 is equal to or greater than T2 + t.
Step S105: If Tl ≧ T2 + t, it is determined that the cooling needs of the user are large, the control device transmits a control signal to the first drive device, and the first drive device displays the air guide plate 223. Driving is performed so that the air guide angle α is a0, and preferably a0 is equal to 90 °, and rapid cooling is performed.
Step S106: When Tl <T2 + t and it is determined that the user's cooling needs are small, the control device transmits a control signal to the first driving device, and the first driving device drives the air guide plate 223. The air guide angle α is made to be al, preferably 20 ° ≦ al <90 °, and further, al is made equal to 20 °.
Step S107: If the set air flow level is not the super strong air flow level, it is determined whether or not the set air flow level is a high air flow level.
Step S108: If the set air flow level is a high air flow level, it is determined whether T1 is equal to or greater than T2 + t.
Step S109: If Tl ≧ T2 + t, it is determined that the cooling needs of the user are great, the control device sends a control signal to the first drive device, and the first drive device uses the air guide plate 223. Driving is performed so that the air guide angle α is a2, preferably a2 is equal to 90 °, and rapid cooling is performed.
Step S110: If Tl <T2 + t, it is determined that the user's cooling needs are small, the control device sends a control signal to the first drive device, and the first drive device uses the air guide plate 223. Driving is performed so that the air guide angle α is a3, preferably 25 ° ≦ a3 <90 °, and further, a3 is equal to 25 °.
Step Slll: When the set air flow rate level is not the high air flow rate level and it is determined that the cooling needs of the user are small, the control device sends a control signal to the first drive device, and the first drive The apparatus drives the air guide plate 223 so that the air guide angle α is a4, preferably 30 ° ≦ a4 <90 °, and further, a4 is equal to 30 °. To do.

If a swing operation command is received during the execution of the control process, the control process described above is stopped and the received operation is executed.

t is determined by the control accuracy. In this embodiment, 1 ° C. ≦ t ≦ 3 ° C. Further, by setting t to 1 ° C., more accurate control can be realized, and the user can feel more comfortable. Bring.

In addition, when the air guide angle is relatively small, the air blowing resistance increases, and in the cooling mode, the air guide angle becomes relatively small, so that cold airflow adheres to the ceiling plate and cools the ceiling. Condensation is likely to occur after air conditioning is stopped.

In order to solve this problem, the air blowing frame inner frame 222 is installed in the air blowing frame outer frame 221 so as to be extendable and retractable, and the air blowing part 220 is further used to drive the expansion and contraction movement of the air blowing frame inner frame 222. The second driving device may include a stepping motor (not shown in the drawing) and a gear and rack driving mechanism (not shown in the drawing).

As shown in FIG. 4, the control method of the present invention further includes the following steps.
Step S201: During operation of the cooling mode, the control device determines whether or not to input an air swing operation command.
Step S202: When the air swing operation command is not input, the control device detects the air guide angle α by the position sensor.
Step S203: The air guide angle α is compared with the set air guide angle α ′, and preferably 40 ° ≦ a ′ ≦ 50 °.
Step S204: If a ≧ a ′, the stroke for extending the air guide plate 223 outward from the initial position is set to X1, preferably 0 mm ≦ X1 ≦ 20 mm, and further , X1 is 10 mm or 20 mm.

Step S205: If a <a ′, the stroke for extending the air guide plate 223 outward from the initial position is set to X2, preferably 20 mm <X2 ≦ 40 mm, and further X1 is set to 30 mm or 40 mm.

When a swing operation command is received during the execution of the control process, the control process described above is stopped and the stroke of the air blowing panel is maintained in the state before the swing.

The control method of the present invention further includes controlling the extension stroke of the wind guide plate 223 based on the wind guide angle. When the wind guide angle is small, the extension stroke is lengthened. Not only shortens the air blowing more smoothly, but also prevents problems such as adhesion of cold airflow to the ceiling plate, cooling of the ceiling, and condensation.

The above embodiments are merely examples of the present invention, and the description is specific and detailed. However, this does not limit the scope of the patent of the present invention. A general engineer in this field can make some modifications and improvements on the assumption that they do not depart from the concept of the present invention, and these should be included in the protection scope of the present invention.

Claims (9)

A control method for an air conditioning wind guide plate installed in an air conditioning air outlet to adjust the direction in which air is discharged,
While operating in the cooling mode, determine whether to input an air swing operation command,
When the air swing operation command is not input, the set air flow level, the set temperature T1, and the indoor environment temperature T2 are obtained.
Based on the set air flow level, the set temperature T1, and the indoor environment temperature T2, the user's cooling needs are determined,
Comprises controlling the air guide angle of the conditioned air guide plate based on the magnitude of the cooling needs of the user,
The air-conditioning air guide plate expands and contracts along the direction of the air outlet,
The control method further includes:
Detecting a wind guide angle of the air conditioning wind guide plate;
Comparing the detected wind guide angle a with the set wind guide angle a ′;
If a ≧ a ′, the step of extending outward from the initial position of the air-conditioning air guide plate to be X1,
If a <a ′, the stroke of extending outward from the initial position of the air conditioning wind guide plate is set to X2, and
X1 <X2, and
40 ° ≦ a ′ ≦ 50 °,
0 mm ≦ Xl ≦ 20 mm,
20 mm <X2 ≦ 40 mm ,
A control method for an air-conditioning air guide plate characterized by the above. Determining the cooling needs of users
Determining whether the set air flow level is an air flow level equal to or higher than the medium air flow level;
Determining whether T1 is equal to or greater than T2 + t, wherein 1 ° C. ≦ t ≦ 3 ° C .;
If the set air flow rate level is higher than the medium air flow rate level and T1 is equal to or greater than T2 + t, it is determined that the user's cooling needs are large. Otherwise, the user's cooling needs are small. A step of determining
The method for controlling an air conditioning wind guide plate according to claim 1. The air-conditioning indoor fan has a super-strong airflow level, a high airflow level, a medium airflow level, and a low airflow level,
Determining the cooling needs of users
a, a step of determining whether or not the set air flow level is a super strong air flow level; and b, if the set air flow level is a super strong air flow level, whether T1 is equal to or greater than T2 + t. If so, it is determined that the user's cooling needs are large, otherwise it is determined that the user's cooling needs are small, and if the set air flow level is not the super strong air flow level, step c C, a step of determining whether or not the set air flow rate level is a high air flow rate level;
d. If the set air flow level is a high air flow level, it is determined whether T1 is equal to or higher than T2 + t. If so, it is determined that the user's cooling needs are large. Determining that the cooling needs are small and determining that the cooling needs of the user are small if the set airflow level is not a high airflow level,
The method of controlling an air conditioning wind guide plate according to claim 2. Control of the air guide angle of the air conditioning wind guide plate based on the cooling needs of the user is as follows:
When it is determined that the set air flow level is an ultra-strong air flow level and T1 is T2 + t or more and the user's cooling needs are great, the air guide angle of the air conditioning air guide plate is a0. Step to
When it is determined that the set air flow rate level is the ultra-strong air flow rate level and T1 is less than T2 + t and the user's cooling needs are small, the air guide angle of the air conditioning air guide plate is al. Step to
When it is determined that the set air flow level is a high air flow level and T1 is equal to or greater than T2 + t and the user's cooling needs are great, the air guide angle of the air conditioning air guide plate is set to a2. And steps to
When it is determined that the set air flow level is a high air flow level and Tl is less than T2 + t and the user's cooling needs are small, the air guide angle of the air conditioning air guide plate is a3. And steps to
When it is determined that the set airflow level is not the super-strong airflow level and the high airflow level, and the user's cooling needs are small, the air guide angle of the air conditioning air guide plate is set to a4; Including,
a0 = a2>al>a3> a4,
The method for controlling an air conditioning wind guide plate according to claim 3. a0 = a2 = 90 °,
The method for controlling an air conditioning wind guide plate according to claim 4. 20 ° ≦ al <90 °,
The method for controlling an air conditioning wind guide plate according to claim 4. 25 ° ≦ a3 <90 °,
The method for controlling an air conditioning wind guide plate according to claim 4. 30 ° ≦ a4 <90 °,
The method for controlling an air conditioning wind guide plate according to claim 4. The air conditioning is an air duct type air conditioning, and the air outlet is directed downward.
The method for controlling an air conditioning wind guide plate according to claim 1.

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